ISBN-13: 9781484258927 / Angielski / Miękka / 2020 / 489 str.
ISBN-13: 9781484258927 / Angielski / Miękka / 2020 / 489 str.
Intermedate user level
Chapter 1: The History of Money and Alternate Currencies
Chapter Goal: Explain the historical evolution of money and alternate currencies prior to bitcoin
Sub-Topics1. Characteristics of money
2. Gold and silver backed currencies
3. Gold standard and fiat currencies
4. Alternate currencies prior to bitcoin (Liberty coin, etc.)
5. Bitcoin6. The Darknet
7. Future evolution of cryptocurrencies
Chapter 2: Bitcoin and Altcoins
Chapter Goal: Discussion of bitcoin and altcoins in circulation and their properties and their raison d’etre.
Sub-Topics
1. Introduction
2. Bitcoin
3. Ethereum4. Monero
5. Ripple
6. Stellar, Tron, and other cryptocurrencies
Chapter 3: Cryptographic Hash Functions
Chapter Goal: Explain cryptographic hash functions, their characteristics, and why they are important in blockchain and cryptocurrency application development.Sub-Topics
1. Introduction
2. Cryptographic hash functions
3. The collision free property of cryptographic hash functions
4. Proving the tamper free property
5. The irreversible property
6. The unique range property
7. Hash pointers and data structures
8. Proving authenticity with crytpographic hashes
9. The SHA-256 cryptographic hash
10. Common cryptographic hash functions
Chapter 4: Symmetric Encryption
Chapter Goal: Explain what symmetric encryption is and it’s deficiency in secure key distribution
Sub-Topics:1. Introduction
2. How symmetric encryption works
3. The key distribution problem4. Common symmetric encryption algorithms
Chapter 5: Public Key Cryptography
Chapter Goal: Explain what public key cryptography is and how it works
Sub-Topics:
1. Introduction2. Algorithms to generate public private key pairs
3. RSA and elliptic curve cryptography
4. Using public–private key pairs for encryption and decryption5. Identity formation and proof with public keys
6. Generating globally unique IDs
Chapter 6: Digital SignaturesChapter Goal: Show how the digital signature algorithm is implemented and how it can be used to prove authorship and authenticity of documents
Sub-Topics:1. Introduction
2. Creating digital signatures
3. Proving authorship and authenticity of documentsChapter 7: Blockchain Construction
Chapter Goal: Discuss properties of a blockchain and how to create a blockchainSub-Topics:
1. Introduction
2. Properties of blockchain
3. How to create a blockchain
4. The bitcoin blockchain5. Scalability issues in blockchain
6. Blockchain databases
7. The genesis block
8. Creating a simple cryptocurrency
Chapter 8: The Merkle Tree Algorithm
Chapter Goal: A discussion of the Merkle tree algorithm along with source code implementations
Sub-Topics:
1. Introduction2. Implementation of the Merkle tree algorithm
Chapter 9: Topology of Cryptocurrency Networks
Chapter Goal: What is a peer-to-peer network and the use of such P2P networks in blockchain applications to broadcast and verify transactions.
Sub-Topics:
1. Introduction
2. Peer-to-peer networks
3. Node identity and supernodes
4. The bitcoin blockchain
5. Block and transaction propagation
Chapter 10: Cryptocurrency Parameters and Configuration
Chapter Goal: Enumerate some common configuration parameters that are used when creating a cryptocurrency and their implications.
Sub-Topics:
1. Introduction2. Common cryptocurrency parameters
Chapter 11: Cryptocurrency Addresses
Chapter Goal: Creating and using cryptocurrency addresses
Sub-Topics:1. Introduction
2. How to make a cryptocurrency address
3. How bitcoin uses addresses4. Key generation algorithms
5. Hierarchical deterministic key generation
Chapter 12: Cryptocurrency Transactions
Chapter Goal: How transactions are implemented and broadcast in a cryptocurrency network.
Sub-Topics:
1. Introduction
2. Transaction mechanics3. Canonical transaction structures
4. Broadcasting transactions
5. Transaction validation
6. How bitcoin implements transactions
7. Locking and unlocking transactions
8. Transaction fees
Chapter 13: Cryptocurrency Storage
Chapter Goal: Discuss methods for storing cryptocurrencies
Sub-Topics:
1. Introduction
2. Cold storage and hot storage
3. Wallets and local storage
4. Storage on the blockchain
5. Online wallets
6. Exchanges
Chapter 14: Mining
Chapter Goal: Explain how blocks are mined in a cryptocurrency networkSub-Topics:
1. Introduction
2. How mining works
3. Incentives for block formation
4. Bitcoin mining5. Chainstate database
6. Proof of work and the difficulty number
7. Energy consumption
8. ASIC resistant mining
9. Mining attacks10. Proof of stake and virtual mining
11. Hash power computations
Chapter 15: The Bitcoin Distributed Consensus Algorithm
Chapter Goal: Discussion of the distributed consensus algorithm in bitcoinSub-Topics:
1. Introduction
2. Consensus formation in bitcoin3. Blockchain forks
4. Double spend resolution in the bitcoin network
Chapter 16: Alternate Distributed Consensus Algorithms
Chapter Goal: Discussion of distributed consensus algorithm that is not based on bitcoin’s proof of work algorithm
Sub-Topics:
1. Introduction
2. Proof of stake distributed consensus
3. Delegated proof of stake
4. Proof of weight algorithms
5. The Byzantine Generals problem
6. Byzantine Fault tolerance
7. Federated Byzantine agreement algorithm
8. Proof of weight, DAGs, and other algorithms
Chapter 17: Working at Scale
Chapter Goal: How to build blockchain and cryptocurrency applications that scaleSub-Topics:
1. Introduction
2. Scalability in the bitcoin network
3. Subchains
4. The lightening network
5. Sharded networks
6. Other solutions
Chapter 18: Anonymous Cryptocurrency Networks
Chapter Goal: Discussion of anonymity in cryptocurrency networks
Sub-Topics:
1. Introduction
2. Why bitcoin is not an anonymous currency3. Some simple precautions for bitcoin transactions
4. Mixers
5. Implementing anonymity for a cryptocurrency
6. Using Tor
Chapter 19: Designing a Cryptocurrency
Chapter Goal: Architecture and logical design principles in cryptocurrency creation
Sub-Topics:
1. Introduction
2. Network architectures3. Blockchain specification and implementation
4. Database implementation
5. Transaction specification
6. Selecting a distributed consensus algorithm
7. The mining algorithm8. The money supply
9. The velocity of money
10. Creating the genesis block
11. Founder’s reserve
12. Language selection
13. Bon voyage
Appendix: Installing and Using a Bitcoin Node
Chapter Goal: Install a full Bitcoin node on a Linux machine
Karan Singh Garewal is an attorney at law in Canada. He has over 20 years of software development experience in C, C++, Go, JavaScript, Node, Ruby/Rails, Python/Django, Vue, PostgresSQL, MySQL, and Cassandra. His current interests are in financial engineering and real-time algorithmic trading systems. He is developing a neural network cryptocurrency trading platform on a C++, Go, Cassandra, and Vue stack.
Create cryptocurrency and blockchain applications by examining the key algorithms and concepts pertaining to blockchains, transaction processing, mining, distributed consensus, and anonymous currencies. In this book, you’ll develop a fully functional cryptocurrency from scratch in the Python language. Practical Blockchains and Cryptocurrencies is a reference for development of blockchain applications and provides you with rigorous information on cryptography and the theory underlying blockchains.
This book consists of small chapters that focus on particular topics. You’ll start with a short history of money. Next, you will survey the bitcoin and altcoin ecosystem before delving into cryptographic hash functions, symmetric encryption, public key cryptography, and digital signatures. All the mathematics required to develop blockchain applications is covered. The emphasis is on providing a lucid and rigorous exposition on the nature and working of these constructs.The next major segment of the book discusses the key concepts and algorithms required to develop blockchain and cryptocurrency applications. There are expositions on blockchain construction, Merkle trees, peer-to-peer networks, cryptocurrency addresses, transactions, and mining. You’ll take a deep dive into the formation of consensus in distributed systems.
In this book you’ll develop a fully functional cryptocurrency called Helium from scratch in Python. The language requirements are modest since it is presumed that most readers will not be acquainted with Python. The entire source code and unit test code is included in this book.
Practical Blockchains and Cryptocurrencies interleaves theory and Helium program code chapters in order to demonstrate the practical application of theory in working Helium program code.
You will:
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